JP2010248068A5 - - Google Patents

Description

Preferably, the gas stream in line (1), which mainly contains hydrogen sulfide and may contain water vapor, nitrogen and CO ₂ , is sent to the thermal stage of the Claus apparatus (3), and the lines ((2), then ( 16)) is also introduced into the thermal stage of the Claus apparatus to partially burn hydrogen sulfide to produce sulfur dioxide, followed by two or three catalyst stages after the thermal stage, In the two or three catalyst stages, the Claus reaction is continued, thus forming part of the Claus apparatus (3), and after the condensation, liquid sulfur is recovered between the various reactors and the line (4 ) At the outlet from the Claus device, the smoke extracted via the line (5) is introduced into the treatment device (TGT device) (6), and the generated sulfur is connected to the line (7). and discharged via, TGT equipment ( ) Portion of the effluent from the take-out (8), which feed the sulfur trap (9), and then sent to the online analyzer (21), the online analyzer (21) to permit adjustment of the valve (32) The effluent taken from line (8) is maintained at a reactor-contactor operating temperature in the range of 125-160 ° C. until a portion of the effluent is introduced into the sulfur trap chamber, The head is maintained in the range of 125-160 ° C., and the porous solid is maintained at a temperature in the range of 75-100 ° C. by circulating hot water in a jacket around the chamber, and a feedback loop is connected to the valve (32 ), The H ₂ S / SO ₂ molar ratio can be maintained at a value in the range of 1.5 to 2.5 by adjusting the secondary air flow adjusted by Adjust by (31) Supplement primary air flow, the valve itself, by a flow controller (22) online analyzer for the concentration of H _{2 S} acid gas (25), controlled from the measured value of the flow rate of acid gas and air .

Claims (8)

A method for desulfurizing gaseous effluent containing hydrogen sulfide using a Claus treatment device and then using a Claus flue gas treatment device (TGT), wherein the H ₂ S / SO ₂ ratio at the outlet from the TGT device is online Using a device to analyze and a feedback loop capable of maintaining the H ₂ S / SO ₂ ratio of the gaseous effluent at the outlet from the TGT device at a value in the range of 1.5 to 2.5. Including a method. The method of claim 1, wherein the H ₂ S / SO ₂ ratio at the outlet from the TGT apparatus is maintained at a value in the range of 1.7 to 2.3.   The method according to claim 1 or 2, wherein the gaseous effluent from the TGT unit is sent to a sulfur trap.   4. The method of claim 3, wherein the gaseous effluent at the outlet from the TGT apparatus is maintained at the operating temperature of the reaction zone of the Claus apparatus until the gaseous effluent is introduced into a sulfur trap chamber.   5. A method according to claim 3 or 4, wherein the sulfur trap comprises a chamber containing a bed of porous solid maintained at a temperature in the range of 75-100C. The method according to claim 1, mainly comprises a hydrogen sulfide and feed steam, nitrogen and CO ₂ may include line (1) in gas flow in the thermal stage of the Claus unit (3), lines ((2), then (16)) is also introduced to the thermal stage of the Claus apparatus, and the hydrogen sulfide is partially combusted to produce sulfur dioxide. Or three catalyst stages, in which the Claus reaction is continued and thus forms part of the Claus apparatus (3), after which the liquid sulfur is condensed into various reactors. Collected at the outlet from the Claus device via the line (4), introduced into the treatment device (TGT device) (6) the smoke exhausted via the line (5) Exhausted sulfur via line (7) A portion (8) of the effluent from the TGT device ( 6 ) is removed and sent to the sulfur trap (9) and then to the online analyzer (21), which is connected to the valve (32 The reactor-contactor operating temperature in the range 125-160 ° C. until a portion of the effluent is introduced into the sulfur trap chamber. The trap head is maintained in the range of 125-160 ° C., and the porous solid is maintained at a temperature in the range of 75-100 ° C. by circulating hot water through the jacket around the chamber and feedback. The loop makes it possible to maintain the H ₂ S / SO ₂ molar ratio at a value in the range of 1.5 to 2.5 by adjusting the secondary air flow adjusted by the valve (32). The next air flow is the valve ( Supplement primary air flow is regulated by 1), the valve itself, by a flow controller (22) online analyzer for the concentration of H _{2 S} acid gas (25), the flow rate of acid gas and air Control method from measured values. A method according to claim 1, wherein the gas stream in the line (1) mainly containing hydrogen sulfide and containing water vapor, nitrogen and CO ₂ is sent to the thermal stage of the Claus apparatus (3) Part of the gaseous effluent in line (1), which represents about 0.5-2% of the flow rate, is sent to furnace (12) via line (11), and all H ₂ S is oxidized to SO ₂ And the flow rate of the effluent in line (11) is adjusted by valve (36) so that the total flow rate of gas flow in line (1) as measured by flow controller (23) indicates a fixed rate. The flow rate of the air introduced into the furnace (12) via the line (13) is regulated by a valve (33), the valve (33) is an on-line analysis showing the concentration of H ₂ S with the flow rate controller (24) By opening the valve (34). , Part of the effluent in the line (15) from the furnace is sent downstream of the Claus apparatus, and the remaining part of the effluent in the line (14) is sent to the gas and air streams (line ( 2) and then introduced into the thermal stage of the Claus apparatus together with (16)), the on-line analyzer (20) has an H ₂ S / SO ₂ ratio of the effluent in line (5) at the outlet from the Claus apparatus And the feedback loop makes it possible to maintain this ratio at a value close to 2 by adjusting the flow rate of the secondary air regulated by the valve (32), the flow rate of the secondary air being Complementing the primary air flow regulated by the valve (31), the valve itself is based on measurements of the acid gas and air flow rates, the flow controller (22) and an on-line analyzer for the concentration of H ₂ S in the acid gas. According to (25) The on-line analyzer (21) passes the value of the H ₂ S / SO ₂ ratio of the effluent in line (8) via a sulfur trap (9) at the outlet from the TGT unit. And the feedback loop allows the H ₂ by adjusting the effluent in lines (10) and (15) mixed with the effluent in line (5) from the Claus device. The S / SO ₂ ratio can be maintained and the resulting effluent in the line (17) is sent to the TGT device (6) where the analyzer (21) has a molar ratio H ₂ S / SO ₂ of 2 When measured to be large, the valve (34) is opened and the valve (35) is completely closed, and conversely, the analyzer (21) has an H ₂ S / SO ₂ ratio of less than 2. Is measured, the valve (35) is opened, One, the valve (34) is completely closed, method. The method according to claim 1, wherein the on-line analyzer for the H ₂ S / SO ₂ ratio is a gas chromatograph.